Well-aligned three-dimensional silk fibroin protein scaffold for orientation regulation of cells

AbstractThe similar characteristics of biomaterials to the extracellular matrix are essential for efficient tissue repair through dictating cell behaviors. But the scaffold fabrication with complex shapes and controlled alignment have proven to be a difficult task. Herein, a well-designed three-dimensional silk fibroin scaffold is fabricated through ice template technology. The effect of the silk fibroin protein concentration and the freezing temperature on the microstructure and mechanical properties of scaffolds are investigated systematically. Cells behavior mediated by the obtained silk fibroin scaffolds is detected. The results show that the protein concentration plays a vital role in microstructure and scaffold strength. A well-aligned scaffold can be obtained when silk fibroin solution is kept at 12 wt%, which holds the highest mechanical properties. The pore size can be further adjusted in the range of 5–80 µm by changing the freezing temperature from −60 to −196 °C. The well-oriented scaffold with the appropriate pore size of 10–20 µm has the best ability to guide cell alignment. The resulting scaffolds provide an excellent matrix to guide cells behaviors and have a potential application in tissue engineering.Keywords: Silk fibroinalignmentice template technologymediationcell behavior Disclosure statementNo potential conflict of interest was reported by the authors.Additional informationFundingThis research work was financially supported by the Science and Technology Program of Zhejiang Province of China (LGG20E030008) and the Research Foundation of Zhejiang Sci-Tech University (19212453-Y).